the equal frequency of stratospheric sudden warmings in el nino and la nina · 2012. 11. 14. ·...
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Equal frequency of stratospheric sudden warmings in
El Nino and La Nina
Amy H. Butler1
Chaim Garfinkel2, Darryn Waugh2, Lorenzo Polvani3, and Margaret Hurwitz4
1 Climate Prediction Center, 2 Johns Hopkins University, 3 Columbia University, 4 NASA Goddard
Stratospheric Sudden Warmings • Dramatic reversal of the polar vortex winds during NH wintertime, often followed
by anomalies that propagate downward to the troposphere 10-60 days later
Stratospheric Sudden Warmings
As in Thompson et al. 2002, updated through 2011
• Can have significant impacts on surface climate in NH winter • Strong (-) NAO: extreme cold outbreaks, Arctic warming
z1000 T2m
Being able to forecast these events could improve intraseasonal to seasonal prediction! SO…. What causes them to occur?
Stratospheric Sudden Warmings
Polvani and Waugh 2004
• Driven by tropospheric planetary-scale waves propagating vertically into the stratosphere and breaking at high-latitudes
(-) NAM
Processes which drive planetary scale waves, like ENSO, may therefore be associated with changes in the frequency of SSWs. How does ENSO impact the stratosphere?
ENSO’s impact on the Stratosphere
El Nino La Nina
DJF Temperature composites [K] 1958-2009, NCEP-NCAR reanalysis
Presumably, the warmer temps during El Nino are associated with stronger wave driving in the seasonal-mean, which weakens the vortex and warms the stratosphere.
El Nino z500
Garfinkel and Hartmann (2008)
Anomaly composite Wave-1 component
Because El Nino reinforces climatological wave 1, planetary wave
driving of the vortex increases. La Nina has the opposite effect, since
it’s associated with an anomalous high over the Pacific region.
But do extreme wave driving events that lead to SSWs ever occur during La
Nina?
ENSO and SSWs
Mean winds are weaker during El
Nino relative to La Nina, but extreme
wind anomalies are similar in each
phase.
ENSO and SSWs
El Nino and La Nina have equal frequency of SSWs in the historical record.
Why do SSWs occur during La Nina as often as during El Nino if the La Nina teleconnection in the Pacific presumably interferes with wave amplification into the stratosphere?
Butler and Polvani 2011, GRL
ENSO teleconnections and SSW precursors From Garfinkel et al. 2012, JGR
While El Nino is associated with a trough in the North Pacific, and La Nina is associated with a ridge, both teleconnections are
associated with low height anomalies in the SSW precursor region (marked by the square).
Frequency of Extreme Lows in SSW precursor region
Frequency of height anomalies exceeding -120m in SSW precursor region. Neutral = red line, El Nino =
dashed line, La Nina = solid line, strong La Nina = asterisks
Extreme negative anomalies in the SSW precursor region
occur nearly equally often in La Nina and El Nino, and less
often in neutral ENSO, consistent with SSW
frequency.
Can this relationship explain the difference between SSW
frequency and ENSO in chemistry climate models as
well?
ENSO’s impact on SSWs in models
1960-2004
From Garfinkel et al. 2012, JGR
Though El Nino enhances SSW frequency in most models, the impact of La Nina varies wildy- e.g., the SSW freq is enhanced in UMSLIMCAT and CMAM, but reduced in GEOSCCM, UMUKCA-METO, and CCSRNIES. Can the location of the ENSO teleconnections in these models explain the SSW frequency response?
From Garfinkel et al. 2012, JGR
SSW frequency is closely related to extreme negative anomalies in precursor region
p>0.98
Inter-model variability in EN and LN SSW frequency is related to inter-model variability of the extreme negative height anomalies in the SSW precursor region
From Garfinkel et al. 2012, JGR
No relationship between ENSO impact on seasonal mean vortex and SSW frequency
From Garfinkel et al. 2012, JGR
Models/data with a large seasonal mean impact from ENSO do not necessarily have a large SSW response to ENSO, and vice versa
Conclusions • SSW frequency during different phases of ENSO is related
to the subpolar extent of ENSO teleconnections. • Frequency of extreme negative anomalies in SSW
precursor region largely determines SSW frequency for a given dataset/model simulation.
• Response to an external forcing, like ENSO, of the seasonal mean stratospheric vortex may not be indicative of the response of extreme stratospheric events.
Garfinkel, C.I., A.H.Butler, D.W. Waugh, M.M. Hurwitz, and L.M. Polvani, Why might SSWs occur with similar frequency in El Nino and La Nina winters? J. Geophys. Res., 117, doi: 10.1029/2012JD017777, 2012.
SSW frequency during neutral ENSO winters is also tied to negative anomalies in SSW precursor region
p>0.98
From Garfinkel et al. 2012, JGR
Understanding Seasonal Mean Response to ENSO
•Seasonal mean response is more closely
related to strength of teleconnections in Gulf
of Alaska.
Split vs displacement frequency is similar in EN and LN. Slight wave 2 signature during LN in the troposphere.
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